Abigail Licht scite author profile

The vast majority of power generation in the United States today is produced through the same processes as it was in the late-1800s: heat is applied to water to generate steam, which turns a turbine, which turns a generator, generating electrical power. Researchers today are developing solid-state power generation processes that are more befitting the 21st-century. Thermophotovoltaic (TPV) cells directly convert radiated thermal energy into electrical power, through a process similar to how traditional photovoltaics work. These TPV generators, however, include additional system components that solar cells do not incorporate. These components, selective-emitters and filters, shape the way the radiated heat is transferred into the TPV cell for conversion and are critical for its efficiency. Here, we present a review of work performed to improve the components in these systems. These improvements will help enable TPV generators to be used with nearly any thermal source for both primary power generation and waste heat harvesting.

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Manipulation of magnetization states of ferromagnetic nanorings by an applied azimuthal Oersted field

Yang

Pradhan

Goldman

et al. 2011

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We manipulate the magnetic states of ferromagnetic nanorings with an azimuthal Oersted field directed along the ring circumference. The circular field is generated by passing current through an atomic force microscope tip positioned at the center of the ring, and can directly control the chirality of the vortex state. We demonstrate switching from an onion state to a vortex state and between two vortex states, using magnetic force microscopy to image the resulting magnetic states. The understanding of the magnetization switching behavior in an azimuthal Oersted field could improve practical magnetic data storage devices.

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Thermophotovoltaics: An Alternative to and Potential Partner with Rectenna Energy Harvesters

DeMeo

Licht

Shemelya

et al. 2013

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GaSb Thermophotovoltaic Cells Grown on GaAs Substrate Using the Interfacial Misfit Array Method

DeMeo

Shemelya

Downs

et al. 2014

Journal of Elec Materi

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Switching of ± 360° domain wall states in a nanoring by an azimuthal Oersted field

Pradhan

Licht

et al. 2011

Nanotechnology

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We demonstrate magnetic switching between two 360° domain wall vortex states in cobalt nanorings, which are candidate magnetic states for robust and low power magnetoresistive random access memory (MRAM) devices. These 360° domain wall (DW) or 'twisted onion' states can have clockwise or counterclockwise circulation, the two states for data storage. Reliable switching between the states is necessary for any realistic device. We accomplish this switching by applying a circular Oersted field created by passing current through a metal atomic force microscope tip placed at the center of the ring. After initializing in an onion state, we rotate the DWs to one side of the ring by passing a current through the center, and can switch between the two twisted states by reversing the current, causing the DWs to split and meet again on the opposite side of the ring. A larger current will annihilate the DWs and create a perfect vortex state in the rings.

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Abigail Licht

A Review of Advances in Thermophotovoltaics for Power Generation and Waste Heat Harvesting

Manipulation of magnetization states of ferromagnetic nanorings by an applied azimuthal Oersted field

Thermophotovoltaics: An Alternative to and Potential Partner with Rectenna Energy Harvesters

GaSb Thermophotovoltaic Cells Grown on GaAs Substrate Using the Interfacial Misfit Array Method

Switching of ± 360° domain wall states in a nanoring by an azimuthal Oersted field

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